INTERVENTION(S):

MAIN OUTCOME MEASURE(S):

RESULT(S):

Algorithms based on serum LH, E2, and P levels detected a prevalence of anovulation across the study period of 5.5%-12.8% (concordant classification for 91.7%-97.4% of cycles). The prevalence of anovulatory cycles varied from 3.4% to 18.6% using algorithms based on urinary LH alone or with the primary E2 metabolite, estrone-3-glucuronide, levels.

CONCLUSION(S):

The prevalence of anovulatory cycles among healthy women varied by algorithm. Mid-cycle LH surge urine-based algorithms used in over-the-counter fertility monitors tended to classify a higher proportion of anovulatory cycles compared with luteal-phase P serum-based algorithms. Our study demonstrates that algorithms based on the LH surge, or in conjunction with estrone-3-glucuronide, potentially estimate a higher percentage of anovulatory episodes. Addition of measurements of postovulatory serum P or urine pregnanediol may aid in detecting ovulation.

Geometric mean hormone concentrations across the menstrual cycle for cycles classified as ovulatory and anovulatory using luteal progesterone threshold algorithm (P5) and the fertility monitor algorithm (LH-FM). Refer to for full description of P5 and LH-FM algorithms.